gstreamer/ext/tarkin/wavelet_coeff.c
Andy Wingo 4359de2616 removal of //-style comments don't link plugins to core libs -- the versioning is done internally to the plugins with...
Original commit message from CVS:
* removal of //-style comments
* don't link plugins to core libs -- the versioning is done internally to the plugins with the plugin_info struct,
and symbol resolution is lazy, so we can always know if a plugin can be loaded by the plugin_info data. in theory.
2002-03-19 04:10:06 +00:00

506 lines
14 KiB
C

#include "mem.h"
#include "wavelet.h"
#include "rle.h"
#define printf(args...)
#define GRAY_CODES 1
#if defined(GRAY_CODES)
static inline
uint16_t binary_to_gray (uint16_t x) { return x ^ (x >> 1); }
static inline
uint16_t gray_to_binary (uint16_t x)
{ int i; for (i=1; i<16; i+=i) x ^= x >> i; return x; }
#endif
static inline
void encode_coeff (ENTROPY_CODER significand_bitstream [],
ENTROPY_CODER insignificand_bitstream [],
TYPE coeff)
{
int sign = (coeff >> (8*sizeof(TYPE)-1)) & 1;
#if defined(GRAY_CODES)
TYPE significance = binary_to_gray(coeff);
#else
static TYPE mask [2] = { 0, ~0 };
TYPE significance = coeff ^ mask[sign];
#endif
int i = TYPE_BITS;
do {
i--;
OUTPUT_BIT(&significand_bitstream[i], (significance >> i) & 1);
} while (!((significance >> i) & 1) && i > 0);
OUTPUT_BIT(&significand_bitstream[i], sign);
while (--i >= 0)
OUTPUT_BIT(&insignificand_bitstream[i], (significance >> i) & 1);
}
static inline
TYPE decode_coeff (ENTROPY_CODER significand_bitstream [],
ENTROPY_CODER insignificand_bitstream [])
{
#if !defined(GRAY_CODES)
static TYPE mask [2] = { 0, ~0 };
#endif
TYPE significance = 0;
int sign;
int i = TYPE_BITS;
do {
i--;
significance |= INPUT_BIT(&significand_bitstream[i]) << i;
/* if (ENTROPY_CODER_EOS(&significand_bitstream[i])) */
/* return 0; */
} while (!significance && i > 0);
sign = INPUT_BIT(&significand_bitstream[i]);
/* if (ENTROPY_CODER_EOS(&significand_bitstream[i])) */
/* return 0; */
while (--i >= 0)
significance |= INPUT_BIT(&insignificand_bitstream[i]) << i;
#if defined(GRAY_CODES)
significance |= sign << (8*sizeof(TYPE)-1);
return gray_to_binary(significance);
#else
return (significance ^ mask[sign]);
#endif
}
static inline
uint32_t skip_0coeffs (Wavelet3DBuf* buf,
ENTROPY_CODER s_stream [],
ENTROPY_CODER i_stream [],
uint32_t limit)
{
int i;
uint32_t skip = limit;
for (i=0; i<TYPE_BITS; i++) {
if (ENTROPY_CODER_SYMBOL(&s_stream[i]) != 0) {
return 0;
} else {
uint32_t runlength = ENTROPY_CODER_RUNLENGTH(&s_stream[i]);
if (i==0)
runlength /= 2; /* sign bits are in this bitplane ... */
if (skip > runlength)
skip = runlength;
if (skip <= 2)
return 0;
}
}
ENTROPY_CODER_SKIP(&s_stream[0], 2*skip); /* kill sign+significance bits */
for (i=1; i<TYPE_BITS; i++)
ENTROPY_CODER_SKIP(&s_stream[i], skip);
return skip;
}
#if 1
static inline
void encode_quadrant (const Wavelet3DBuf* buf,
int level, int quadrant, uint32_t w, uint32_t h, uint32_t f,
ENTROPY_CODER significand_bitstream [],
ENTROPY_CODER insignificand_bitstream [])
{
uint32_t x, y, z;
for (z=0; z<f; z++) {
for (y=0; y<h; y++) {
for (x=0; x<w; x++) {
unsigned int index = buf->offset [level] [quadrant]
+ z * buf->width * buf->height
+ y * buf->width + x;
encode_coeff (significand_bitstream, insignificand_bitstream,
buf->data [index]);
}
}
}
}
static
void encode_coefficients (const Wavelet3DBuf* buf,
ENTROPY_CODER s_stream [],
ENTROPY_CODER i_stream [])
{
int level;
encode_coeff (s_stream, i_stream, buf->data[0]);
for (level=0; level<buf->scales-1; level++) {
uint32_t w, h, f, w1, h1, f1;
w = buf->w [level];
h = buf->h [level];
f = buf->f [level];
w1 = buf->w [level+1] - w;
h1 = buf->h [level+1] - h;
f1 = buf->f [level+1] - f;
if (w1 > 0) encode_quadrant(buf,level,1,w1,h,f,s_stream,i_stream);
if (h1 > 0) encode_quadrant(buf,level,2,w,h1,f,s_stream,i_stream);
if (f1 > 0) encode_quadrant(buf,level,3,w,h,f1,s_stream,i_stream);
if (w1 > 0 && h1 > 0) encode_quadrant(buf,level,4,w1,h1,f,s_stream,i_stream);
if (w1 > 0 && f1 > 0) encode_quadrant(buf,level,5,w1,h,f1,s_stream,i_stream);
if (h1 > 0 && f1 > 0) encode_quadrant(buf,level,6,w,h1,f1,s_stream,i_stream);
if (h1 > 0 && f1 > 0 && f1 > 0)
encode_quadrant (buf,level,7,w1,h1,f1,s_stream,i_stream);
}
}
static inline
void decode_quadrant (Wavelet3DBuf* buf,
int level, int quadrant, uint32_t w, uint32_t h, uint32_t f,
ENTROPY_CODER s_stream [],
ENTROPY_CODER i_stream [])
{
uint32_t x, y, z;
z = 0;
do {
y = 0;
do {
x = 0;
do {
uint32_t skip;
uint32_t index = buf->offset [level] [quadrant]
+ z * buf->width * buf->height
+ y * buf->width + x;
buf->data [index] = decode_coeff (s_stream, i_stream);
skip = skip_0coeffs (buf, s_stream, i_stream,
(w-x-1)+(h-y-1)*w+(f-z-1)*w*h);
if (skip > 0) {
x += skip;
while (x >= w) {
y++; x -= w;
while (y >= h) {
z++; y -= h;
if (z >= f)
return;
}
}
}
x++;
} while (x < w);
y++;
} while (y < h);
z++;
} while (z < f);
}
static
void decode_coefficients (Wavelet3DBuf* buf,
ENTROPY_CODER s_stream [],
ENTROPY_CODER i_stream [])
{
int level;
buf->data[0] = decode_coeff (s_stream, i_stream);
for (level=0; level<buf->scales-1; level++) {
uint32_t w, h, f, w1, h1, f1;
w = buf->w [level];
h = buf->h [level];
f = buf->f [level];
w1 = buf->w [level+1] - w;
h1 = buf->h [level+1] - h;
f1 = buf->f [level+1] - f;
if (w1 > 0) decode_quadrant(buf,level,1,w1,h,f,s_stream,i_stream);
if (h1 > 0) decode_quadrant(buf,level,2,w,h1,f,s_stream,i_stream);
if (f1 > 0) decode_quadrant(buf,level,3,w,h,f1,s_stream,i_stream);
if (w1 > 0 && h1 > 0) decode_quadrant(buf,level,4,w1,h1,f,s_stream,i_stream);
if (w1 > 0 && f1 > 0) decode_quadrant(buf,level,5,w1,h,f1,s_stream,i_stream);
if (h1 > 0 && f1 > 0) decode_quadrant(buf,level,6,w,h1,f1,s_stream,i_stream);
if (h1 > 0 && f1 > 0 && f1 > 0)
decode_quadrant (buf,level,7,w1,h1,f1,s_stream,i_stream);
}
}
#else
static
void encode_coefficients (const Wavelet3DBuf* buf,
ENTROPY_CODER s_stream [],
ENTROPY_CODER i_stream [])
{
uint32_t i;
for (i=0; i<buf->width*buf->height*buf->frames; i++)
encode_coeff(s_stream, i_stream, buf->data[i]);
}
static
void decode_coefficients (Wavelet3DBuf* buf,
ENTROPY_CODER s_stream [],
ENTROPY_CODER i_stream [])
{
uint32_t i;
for (i=0; i<buf->width*buf->height*buf->frames; i++) {
uint32_t skip;
buf->data[i] = decode_coeff(s_stream, i_stream);
skip = skip_0coeffs (buf, s_stream, i_stream,
buf->width*buf->height*buf->frames - i);
i += skip;
}
}
#endif
static
uint32_t setup_limittabs (ENTROPY_CODER significand_bitstream [],
ENTROPY_CODER insignificand_bitstream [],
uint32_t significand_limittab [],
uint32_t insignificand_limittab [],
uint32_t limit)
{
uint32_t significand_limit;
uint32_t insignificand_limit;
uint32_t byte_count;
int i;
assert (limit > 2 * TYPE_BITS * sizeof(uint32_t)); /* limit too small */
printf ("%s: limit == %u\n", __FUNCTION__, limit);
byte_count = 2 * TYPE_BITS * sizeof(uint32_t); /* 2 binary coded limittabs */
limit -= byte_count;
printf ("%s: rem. limit == %u\n", __FUNCTION__, limit);
significand_limit = limit * 7 / 8;
insignificand_limit = limit - significand_limit;
printf ("%s: limit == %u\n", __FUNCTION__, limit);
printf ("significand limit == %u\n", significand_limit);
printf ("insignificand limit == %u\n", insignificand_limit);
for (i=TYPE_BITS-1; i>=0; i--) {
uint32_t s_bytes, i_bytes;
if (i > 0) {
significand_limittab[i] = (significand_limit + 1) / 2;
insignificand_limittab[i] = (insignificand_limit + 1) / 2;
} else {
significand_limittab[0] = significand_limit;
insignificand_limittab[0] = insignificand_limit;
}
s_bytes = ENTROPY_ENCODER_FLUSH(&significand_bitstream[i]);
i_bytes = ENTROPY_ENCODER_FLUSH(&insignificand_bitstream[i]);
if (s_bytes < significand_limittab[i])
significand_limittab[i] = s_bytes;
if (i_bytes < insignificand_limittab[i])
insignificand_limittab[i] = i_bytes;
byte_count += significand_limittab[i];
byte_count += insignificand_limittab[i];
printf ("insignificand_limittab[%i] == %u / %u\n",
i, insignificand_limittab[i], i_bytes);
printf (" significand_limittab[%i] == %u / %u\n",
i, significand_limittab[i], s_bytes);
significand_limit -= significand_limittab[i];
insignificand_limit -= insignificand_limittab[i];
}
printf ("byte_count == %u\n", byte_count);
return byte_count;
}
/**
* write 'em binary for now, should be easy to compress ...
*/
static
uint8_t* write_limittabs (uint8_t *bitstream,
uint32_t significand_limittab [],
uint32_t insignificand_limittab [])
{
int i;
for (i=0; i<TYPE_BITS; i++) {
*(uint32_t*) bitstream = significand_limittab[i];
bitstream += 4;
}
for (i=0; i<TYPE_BITS; i++) {
*(uint32_t*) bitstream = insignificand_limittab[i];
bitstream += 4;
}
return bitstream;
}
static
uint8_t* read_limittabs (uint8_t *bitstream,
uint32_t significand_limittab [],
uint32_t insignificand_limittab [])
{
int i;
for (i=0; i<TYPE_BITS; i++) {
significand_limittab[i] = *(uint32_t*) bitstream;
printf ("significand_limittab[%i] == %u\n", i, significand_limittab[i]);
bitstream += 4;
}
for (i=0; i<TYPE_BITS; i++) {
insignificand_limittab[i] = *(uint32_t*) bitstream;
printf ("insignificand_limittab[%i] == %u\n", i, insignificand_limittab[i]);
bitstream += 4;
}
return bitstream;
}
/**
* concatenate entropy coder bitstreams
*/
static
void merge_bitstreams (uint8_t *bitstream,
ENTROPY_CODER significand_bitstream [],
ENTROPY_CODER insignificand_bitstream [],
uint32_t significand_limittab [],
uint32_t insignificand_limittab [])
{
int i;
for (i=TYPE_BITS-1; i>=0; i--) {
memcpy (bitstream,
ENTROPY_CODER_BITSTREAM(&significand_bitstream[i]),
significand_limittab[i]);
bitstream += significand_limittab[i];
}
for (i=TYPE_BITS-1; i>=0; i--) {
memcpy (bitstream,
ENTROPY_CODER_BITSTREAM(&insignificand_bitstream[i]),
insignificand_limittab[i]);
bitstream += insignificand_limittab[i];
}
}
static
void split_bitstreams (uint8_t *bitstream,
ENTROPY_CODER significand_bitstream [],
ENTROPY_CODER insignificand_bitstream [],
uint32_t significand_limittab [],
uint32_t insignificand_limittab [])
{
uint32_t byte_count;
int i;
for (i=TYPE_BITS-1; i>=0; i--) {
byte_count = significand_limittab[i];
ENTROPY_DECODER_INIT(&significand_bitstream[i], bitstream, byte_count);
bitstream += byte_count;
}
for (i=TYPE_BITS-1; i>=0; i--) {
byte_count = insignificand_limittab[i];
ENTROPY_DECODER_INIT(&insignificand_bitstream[i], bitstream, byte_count);
bitstream += byte_count;
}
}
int wavelet_3d_buf_encode_coeff (const Wavelet3DBuf* buf,
uint8_t *bitstream,
uint32_t limit)
{
ENTROPY_CODER significand_bitstream [TYPE_BITS];
ENTROPY_CODER insignificand_bitstream [TYPE_BITS];
uint32_t significand_limittab [TYPE_BITS];
uint32_t insignificand_limittab [TYPE_BITS];
uint32_t byte_count;
int i;
for (i=0; i<TYPE_BITS; i++)
ENTROPY_ENCODER_INIT(&significand_bitstream[i], limit);
for (i=0; i<TYPE_BITS; i++)
ENTROPY_ENCODER_INIT(&insignificand_bitstream[i], limit);
encode_coefficients (buf, significand_bitstream, insignificand_bitstream);
byte_count = setup_limittabs (significand_bitstream, insignificand_bitstream,
significand_limittab, insignificand_limittab,
limit);
bitstream = write_limittabs (bitstream,
significand_limittab, insignificand_limittab);
merge_bitstreams (bitstream, significand_bitstream, insignificand_bitstream,
significand_limittab, insignificand_limittab);
for (i=0; i<TYPE_BITS; i++) {
ENTROPY_ENCODER_DONE(&significand_bitstream[i]);
ENTROPY_ENCODER_DONE(&insignificand_bitstream[i]);
}
return byte_count;
}
void wavelet_3d_buf_decode_coeff (Wavelet3DBuf* buf,
uint8_t *bitstream,
uint32_t byte_count)
{
ENTROPY_CODER significand_bitstream [TYPE_BITS];
ENTROPY_CODER insignificand_bitstream [TYPE_BITS];
uint32_t significand_limittab [TYPE_BITS];
uint32_t insignificand_limittab [TYPE_BITS];
int i;
memset (buf->data, 0,
buf->width * buf->height * buf->frames * sizeof(TYPE));
bitstream = read_limittabs (bitstream,
significand_limittab, insignificand_limittab);
split_bitstreams (bitstream, significand_bitstream, insignificand_bitstream,
significand_limittab, insignificand_limittab);
decode_coefficients (buf, significand_bitstream, insignificand_bitstream);
for (i=0; i<TYPE_BITS; i++) {
ENTROPY_DECODER_DONE(&significand_bitstream[i]);
ENTROPY_DECODER_DONE(&insignificand_bitstream[i]);
}
}